10MW급 파력-해상풍력 복합발전시스템의 R&D 과제에 대한 소개

Abstract

The importance of ocean renewable energy is emphasized due to the incensement of greenhouse gases. Many offshore wind turbines and wave energy converters have been widely applied. Moreover, a hybrid power generation system of offshore wind turbine and wave energy converter has been appeared. Recently, a R&D project on 10MW class wave-offshore wind hybrid power generation system was launched in Korea. The objective of R&D project is the development of hybrid power generation system combining floating offshore wind turbines and wave energy converters. The project has 3 stages for 8 years. At the first stage, the following items are included for 3 years: 1) Analysis on dynamic stability of floating structure coupled with power generation and mooring systems and principle design of hybrid power generation system, 2) Analysis on structural safety and development of high-strength material, 3) Development of combined control system of wave-offshore wind power generation, 4) Standardization of developed hybrid power generation system and commercialization. In the project, various research teams are connected including many specialists on hydrodynamic and structural engineers, wind turbine and wave energy converter engineers, and electric power and control system engineers, etc. In this paper, the details of this project are introduced.wind turbine and wave energy converter has been appeared. Recently, a R&D project on 10MW class wave-offshore wind hybrid power generation system was launched in Korea. The objective of R&D project is the development of hybrid power generation system combining floating offshore wind turbines and wave energy converters. The project has 3 stages for 8 years. At the first stage, the following items are included for 3 years: 1) Analysis on dynamic stability of floating structure coupled with power generation and mooring systems and principle design of hybrid power generation system, 2) Analysis on structural safety and development of high-strength material, 3) Development of combined control system of wave-offshore wind power generation, 4) Standardization of developed hybrid power generation system and commercialization. In the project, various research teams are connected including many specialists on hydrodynamic and structural engineers, wind turbine and wave energy converter engineers, and electric power and control system engineers, etc. In this paper, the details of this project are introduced.